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| {{Infobox polyhedron
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| | name =Set of regular ''n''-gonal hosohedra
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| | image =Hexagonal hosohedron.png
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| | caption =Example hexagonal hosohedron on a sphere
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| | type =[[Regular polyhedron]] or [[spherical tiling]]
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| | euler = 2
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| | faces =''n'' [[digon]]s
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| | edges =''n''
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| | vertices =2
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| | vertex_config =''2''<sup>n</sup>
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| | schläfli ={2,''n''}
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| | wythoff =''n'' {{!}} 2 2
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| | coxeter ={{CDD|node|n|node|2|node_1}}
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| | symmetry =D<sub>''n''h</sub>, [2,n], (*22n), order 4n
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| | rotsymmetry =D<sub>''n''</sub>, [2,n]<sup>+</sup>, (22n), order 2n
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| | surface_area =
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| | volume =
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| | angle =
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| | dual =[[dihedron]]
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| | properties =
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| | vertex_figure =
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| | net =}}
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| [[Image:BeachBall.jpg|thumb|This [[beach ball]] shows a hosohedron with six lune faces, if the white circles on the ends are removed.]]
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| In [[geometry]], an [[Polygon|''n''-gonal]] '''hosohedron''' is a tessellation of [[Lune (mathematics)|lunes]] on a spherical surface, such that each lune shares the same two vertices. A regular n-gonal hosohedron has [[Schläfli symbol]] {2, ''n''}.
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| == Hosohedra as regular polyhedra ==
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| For a regular polyhedron whose Schläfli symbol is {''m'', ''n''}, the number of polygonal faces may be found by:
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| :<math>N_2=\frac{4n}{2m+2n-mn}</math> | |
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| The [[Platonic solid]]s known to antiquity are the only integer solutions for ''m'' ≥ 3 and ''n'' ≥ 3. The restriction ''m'' ≥ 3 enforces that the polygonal faces must have at least three sides.
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| When considering polyhedra as a [[spherical tiling]], this restriction may be relaxed, since [[digon]]s (2-gons) can be represented as spherical lunes, having non-zero [[area (geometry)|area]]. Allowing ''m'' = 2 admits a new infinite class of regular polyhedra, which are the hosohedra. On a spherical surface, the polyhedron {2, ''n''} is represented as ''n'' abutting lunes, with interior angles of 2π/''n''. All these lunes share two common vertices.
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| {| class="wikitable" width="320"
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| |[[File:Trigonal_hosohedron.png|160px]]<br />A regular trigonal hosohedron, {2,3}, represented as a tessellation of 3 spherical lunes on a sphere.
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| |[[Image:4hosohedron.svg|160px]]<br />A regular tetragonal hosohedron, represented as a tessellation of 4 spherical lunes on a sphere.
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| |}
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| {|class="wikitable"
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| |+ Family of regular hosohedra
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| |-
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| !1
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| !2
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| !3
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| !4
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| !5
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| !6
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| !7
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| !8
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| !9
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| !10
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| !11
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| !12
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| !...
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| |-
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| !{{CDD|node_1|2|node}}<BR>{2,1}
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| !{{CDD|node_1|2|node|2|node}}<BR>{2,2}
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| !{{CDD|node_1|2|node|3|node}}<BR>{2,3}
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| !{{CDD|node_1|2|node|4|node}}<BR>{2,4}
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| !{{CDD|node_1|2|node|5|node}}<BR>{2,5}
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| !{{CDD|node_1|2|node|6|node}}<BR>{2,6}
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| !{{CDD|node_1|2|node|7|node}}<BR>{2,7}
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| !{{CDD|node_1|2|node|8|node}}<BR>{2,8}
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| !{{CDD|node_1|2|node|9|node}}<BR>{2,9}
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| !{{CDD|node_1|2|node|1x|0x|node}}<BR>{2,10}
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| !{{CDD|node_1|2|node|1x|1x|node}}<BR>{2,11}
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| !{{CDD|node_1|2|node|1x|2x|node}}<BR>{2,12}
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| |-
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| |[[File:Spherical henagonal hosohedron.png|50px]]
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| |[[File:Spherical digonal hosohedron.png|50px]]
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| |[[Image:Spherical trigonal hosohedron.png|50px]]
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| |[[Image:Spherical square hosohedron.png|50px]]
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| |[[Image:Spherical pentagonal hosohedron.png|50px]]
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| |[[Image:Spherical hexagonal hosohedron.png|50px]]
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| |[[Image:Spherical heptagonal hosohedron.png|50px]]
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| |[[Image:Spherical octagonal hosohedron.png|50px]]
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| |[[Image:Spherical enneagonal hosohedron.png|50px]]
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| |[[Image:Spherical decagonal hosohedron.png|50px]]
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| |[[Image:Spherical hendecagonal hosohedron.png|50px]]
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| |[[Image:Spherical dodecagonal hosohedron.png|50px]]
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| |}
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| == Kalidescopic symmetry ==
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| The digonal faces of a 2''n''-hosohedron, {2,2n}, represents the fundamental domains of [[dihedral symmetry in three dimensions]]: C<sub>nv</sub>, [n], (*nn), order 2''n''. The reflection domains can be shown as alternately colored lunes as mirror images. Bisecting the lunes into two spherical triangles creates [[Bipyramid#Symmetry|bipyramids]] and define [[dihedral symmetry]] D<sub>nh</sub>, order 4''n''.
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| {|class="wikitable" width=480
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| !Symmetry
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| !C<sub>1v</sub>
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| !C<sub>2v</sub>
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| !C<sub>3v</sub>
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| !C<sub>4v</sub>
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| !C<sub>5v</sub>
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| !C<sub>6v</sub>
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| |-
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| !Hosohedron
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| !{2,2}
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| !{2,4}
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| !{2,6}
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| !{2,8}
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| !{2,10}
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| !{2,12}
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| |-
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| !Fundamental domains
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| |[[Image:Spherical digonal hosohedron2.png|80px]]
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| |[[Image:Spherical square hosohedron2.png|80px]]
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| |[[Image:Spherical hexagonal hosohedron2.png|80px]]
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| |[[Image:Spherical octagonal hosohedron2.png|80px]]
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| |[[Image:Spherical decagonal hosohedron2.png|80px]]
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| |[[Image:Spherical dodecagonal hosohedron2.png|80px]]
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| |}
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| == Relationship with the Steinmetz solid ==
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| The tetragonal hosohedron is topologically equivalent to the [[Steinmetz solid#Bicylinder|bicylinder Steinmetz solid]], the intersection of two cylinders at right-angles.<ref>{{mathworld|urlname=SteinmetzSolid|title=Steinmetz Solid}}</ref>
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| == Derivative polyhedra ==
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| The [[dual polyhedron|dual]] of the n-gonal hosohedron {2, ''n''} is the ''n''-gonal [[dihedron]], {''n'', 2}. The polyhedron {2,2} is self-dual, and is both a hosohedron and a dihedron.
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| A hosohedron may be modified in the same manner as the other polyhedra to produce a [[truncated polyhedron|truncated]] variation. The truncated ''n''-gonal hosohedron is the n-gonal [[prism (geometry)|prism]].
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| == Hosotopes ==
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| [[dimension|Multidimensional]] analogues in general are called '''hosotopes'''. A regular hosotope with [[Schläfli symbol]] ''{2,p,...,q}'' has two vertices, each with a [[vertex figure]] {p,...,q}.
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| The two-dimensional hosotope {2} is a [[digon]].
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| == Etymology ==
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| The term “hosohedron” was coined by [[Harold Scott MacDonald Coxeter|H.S.M. Coxeter]], and possibly derives from the Greek ὅσος (''osos/hosos'') “as many”, the idea being that a hosohedron can have “'''as many''' faces as desired”. <ref name="Schwartzman1994">{{cite book|author=Steven Schwartzman|title=The Words of Mathematics: An Etymological Dictionary of Mathematical Terms Used in English|url=http://books.google.com/books?id=SRw4PevE4zUC&pg=PA109|date=1 January 1994|publisher=MAA|isbn=978-0-88385-511-9|pages=108–109}}</ref>
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| == See also ==
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| {{Commonscat|Hosohedra}}
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| *[[Polyhedron]]
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| *[[Polytope]]
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| == References ==
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| {{reflist}}
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| *Coxeter, H.S.M; Regular Polytopes (third edition). Dover Publications Inc. ISBN 0-486-61480-8
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| *{{mathworld | urlname = Hosohedron | title = Hosohedron}}
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| {{Polyhedron navigator}}
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| {{polyhedra}}
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| [[Category:Polyhedra]]
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| [[Category:Tessellation]]
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